Traffic control system, controller and method for directing vehicle behavior at a defined spatial location

1. A controller configured to direct a vehicle to slow at a defined spatial location along a roadway, wherein the controller comprises at least one processor and memory including computer program code, the memory and the computer program code configured to, with the at least one processor, cause the controller to perform at least the following: receiving information indicative of at least one characteristic of a behavior of the vehicle as the vehicle approaches the defined spatial location, wherein the information is indicative of at least one of a speed of the vehicle or a distance to the vehicle from the defined spatial location; based on the information, comparing the behavior of the vehicle to a defined criterion, wherein the defined criterion comprises at least one of a speed limit associated with the defined spatial location or a defined distance to the vehicle from the defined spatial location; and in response to comparing the behavior of the vehicle to the defined criterion, causing an unmanned air vehicle (UAV) to maintain a hovering position in which the UAV hovers above the roadway at the defined spatial location so as to be within the path of travel of the vehicle on the roadway.

2. A controller according to claim 1 , wherein in an instance in which the information is indicative of the speed of the vehicle, the controller is configured to compare the behavior of the vehicle to the defined criterion by determining whether the speed of the vehicle is less than the speed limit associated with the defined spatial location, wherein the controller is configured to cause the UAV to maintain the hovering position by causing the UAV to maintain the hovering position within the path of travel of the vehicle in response to determining that the speed of the vehicle is greater than the speed limit, and wherein the controller is further configured to cause the UAV to fly out of the path of travel of the vehicle in response to determining that that the speed of the vehicle is less than the speed limit.

3. A controller according to claim 1 , wherein in an instance in which the information is indicative of the distance to the vehicle from the defined spatial location, the controller is configured to compare the behavior of the vehicle to the defined criterion by determining whether the distance to the vehicle from the defined spatial location is less than the defined distance, wherein the controller is configured to cause the UAV to maintain the hovering position by causing the UAV to maintain the hovering position within the path of travel of the vehicle in response to determining that the distance to the vehicle from the defined spatial location is greater than the defined distance, and wherein the controller is further configured to cause the UAV to fly out of the path of travel of the vehicle in response to determining that that the distance to the vehicle from the defined spatial location is less than the defined distance.

4. A controller according to claim 1 wherein the memory and the computer program code are configured to, with the at least one processor, cause the controller to cause an image of the vehicle to be captured.

5. A controller according to claim 4 wherein the information is indicative of the speed of the vehicle, wherein the controller is configured to cause the image to be captured by causing the image to be captured in response to determining that the speed of the vehicle exceeds a determined threshold.

6. A controller according to claim 1 wherein the memory and the computer program code are further configured to, with the at least one processor, cause the controller to cause the UAV to fly from a rest position to the hovering position in response to an indication that the vehicle is approaching the defined spatial location along the roadway.

7. A controller according to claim 6 wherein the memory and the computer program code are further configured to, with the at least one processor, cause the controller to cause the UAV to fly out of the path of travel of the vehicle and to return to the rest position in response to comparing the behavior of the vehicle to the defined criterion.

8. A method for directing a vehicle to slow at a defined spatial location along a roadway, wherein the method comprises: receiving information indicative of at least one characteristic of a behavior of the vehicle as the vehicle approaches the defined spatial location, wherein the information is indicative of at least one of a speed of the vehicle or a distance to the vehicle from the defined spatial location; based on the information, comparing the behavior of the vehicle to a defined criterion, wherein the defined criterion comprises at least one of a speed limit associated with the defined spatial location or a defined distance to the vehicle from the defined spatial location; and in response to comparing the behavior of the vehicle to the defined criterion, causing an unmanned air vehicle (UAV) to maintain a hovering position in which the UAV hovers above the roadway at the defined spatial location so as to be within a path of travel of the vehicle on the roadway.

9. A method according to claim 8 wherein in an instance in which the information is indicative of the speed of the vehicle, comparing the behavior of the vehicle to the defined criterion comprises determining whether the speed of the vehicle is less than the speed limit associated with the defined spatial location, wherein causing the UAV to maintain the hovering position comprises causing the UAV to maintain the hovering position within the path of travel of the vehicle in response to determining that the speed of the vehicle is greater than the speed limit, and wherein the method further comprises causing the UAV to fly out of the path of travel of the vehicle in response to determining that that the speed of the vehicle is less than the speed limit.

10. A method according to claim 9 wherein determining whether the speed of the vehicle is less than the speed limit comprises determining whether the speed of the vehicle is less than the speed limit during a defined time period, and wherein causing the UAV to maintain the hovering position within the path of travel of the vehicle comprises causing the UAV to maintain the hovering position within the path of travel of the vehicle in response to determining that the speed of the vehicle is greater than the speed limit within the defined time period.

11. A method according to claim 8 wherein in an instance in which the information is indicative of the distance to the vehicle from the defined spatial location, comparing the behavior of the vehicle to the defined criterion by determining whether the distance to the vehicle from the defined spatial location is less than the defined distance, wherein causing the UAV to maintain the hovering position comprises causing the UAV to maintain the hovering position within the path of travel of the vehicle in response to determining that the distance to the vehicle from the defined spatial location is greater than the defined distance, and wherein the method further comprises causing the UAV to fly out of the path of travel of the vehicle in response to determining that that the distance to the vehicle from the defined spatial location is less than the defined distance.

12. A method according to claim 8 further comprising causing an image of the vehicle to be captured in response to determining that the speed of the vehicle exceeds a determined threshold.

13. A method according to claim 8 further comprising causing the UAV to fly from a rest position to the hovering position in response to an indication that the vehicle is approaching the defined spatial location along the roadway.

14. A method according to claim 13 further comprising recharging the UAV while the UAV is in the rest position.

15. A traffic control system comprising: a controller configured to control operation of an unmanned air vehicle (UAV) at a defined spatial location along a roadway differently in response to first and second mutually exclusive conditions along the roadway, wherein the controller is configured, in response to the first condition, to cause the UAV to hover above the roadway at the defined spatial location so as to be within a path of travel of a vehicle on the roadway, and wherein the controller is configured, in response to the second condition, to cause the UAV to be positioned out of the path of travel of the vehicle on the roadway, wherein the UAV is configured to remain at the defined spatial location and to be controlled by the controller so as to alternately respond to the first and second conditions along the roadway, and wherein the UAV comprises a bumper configured to physically contact the vehicle.

16. A traffic control system according to claim 15 wherein the first condition is associated with a train crossing the roadway, and wherein the second condition is indicative of an absence of the train from the roadway.

17. A traffic control system according to claim 15 wherein the first condition is associated with one or more people in a crosswalk across the roadway, and wherein the second condition is indicative of an absence of people from the crosswalk.

18. A traffic control system according to claim 15 wherein the first condition is associated with the vehicle approaching the defined spatial location along the roadway, and wherein the second condition is indicative of an absence of the vehicle from a proximity of the defined spatial location.

19. A traffic control system according to claim 15 wherein the first condition is associated with the vehicle approaching the defined spatial location along the roadway at a speed that is greater than a defined speed and wherein the second condition is associated with the vehicle approaching the defined spatial location along the roadway at a speed that is less than the defined speed.

20. A traffic control system according to claim 15 wherein the bumper comprises an elastomeric material.

21. A traffic control system according to claim 15 further comprising an image capture system configured to capture an image of the vehicle in response to a determination that a speed of the vehicle exceeds a determined threshold.

22. A traffic control system according to claim 15 further comprising one or more sensors configured to detect at least one characteristic of a behavior of the vehicle as the vehicle approaches the defined spatial location along the roadway, wherein the first and second conditions are based upon the at least one characteristic.